Verfügbarkeit: Metallurgy of steelmaking

Metallurgy of steelmaking:

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Bibliographische Detailangaben
1. Verfasser:	Oeters, Franz 1928- (VerfasserIn)
Format:	Buch
Sprache:	English German
Veröffentlicht:	Düsseldorf Stahleisen 1994
Schlagworte:	Ligas metálicas Steel > Metallurgy Metallurgie Stahlherstellung
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XIX, 512 S. Ill., zahlr. graph. Darst.
ISBN:	351400465X

Internformat

MARC


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Datensatz im Suchindex

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adam_text	RL CA CONTENTS EXPLANATION OF FREQUENTLY USED SYMBOLS XV 1 GENERAL - DEFINITION OF THE TERM STEEL - ....................... OBJECTIVES IN STEELMAKING ........................................ 1 THERMODYNAMIC PRINCIPLES ...................................... 3 .1 OVERVIEW OF THE MOST IMPORTANT REACTIONS WHICH TAKE PLACE DURING THE REFINING STAGE .......................................... 3 2.2 ACTIVITIES IN METALLIC POLYNARY (MULTIPHASE) SYSTEMS .............. 6 2.3 STRUCTURE OF THE SLAGS ............................................. 9 2.4 GAS EQUILIBRIA..................................................... 14 2.5 OXIDATION EQUILIBRIA ............................................... 19 2.5.1 THE IRON-OXYGEN SYSTEM ........................................... 19 2.5.2 BINARY SYSTEMS OF SLAGS OF THE OXIDATION REACTIONS ................. 23 2.5.2.1 THE FEO-MNO SYSTEM ............................................ 24 2.5.2.2 THE FEO-SI0 2 SYSTEM ............................................. 26 2.5.2.3 THE FE0-FE203-CA0 SYSTEM ...................................... 28 2.5.2.4 THE FE0-FE 2 03-MG0 SYSTEM...................................... 34 2.5.2.5 THE CAO-SI0 2 AND CAO-P 2 C 5 SYSTEMS ............................ 35 2.5.3 THE CAO-FEO-SI0 2 TERNARY SYSTEM AND THE ASSOCIATED METAL-SLAG EQUILIBRIA ......... 37 2.5.4 THE CAO-FEO N -P205 SYSTEM AND THE DEPHOSPHORISATION EQUILIBRIUM 47 2.6 DEOXIDATION EQUILIBRIA.................... 54 2.6.1 SIMPLE DEOXIDATION EQUILIBRIA ..................................... 54 2.6.2 THE FORMATION OF COMPLEX OXIDES ................................. 62 2.7 DESULPHURISATION EQUILIBRIA ........................................ 73 2.7.1 THE SOLUBILITY PRODUCTS OF THE SULPHIDES ........................... 75 2.7.2 DESULPHURISATION WITH SOLID DESULPHURISING AGENTS .................. 79 2.7.3 DESULPHURISATION WITH LIME-RICH BASIC SLAGS ........................ 81 2.8 EQUILIBRIA WITH ALKALI-CONTAINING SLAGS ............................. 91 2.9 CALCIUM METALLURGY ............................................... 98 3 MASS TRANSFER ............................................... 103 3.1 REACTION TYPES IN EXTRACTIVE METALLURGY ............................ 103 3.1.1 INTRODUCTION AND FUNDAMENTAL CONCEPTS ............................ 103 3.1.2 REACTION TYPES .................................................... 108 IX 3.1.2.1 CONSECUTIVE REACTIONS ............................................. 108 3.1.2.2 DOUBLE-DECOMPOSITION REACTIONS ................................... ILL 3.1.2.3 REACTIONS INVOLVING BRANCH SUBREACTIONS ........................... 116 3.2 TRANSPORT PHENOMENA ............................................. 119 3.2.1 INTRODUCTION AND FUNDAMENTAL CONCEPTS ............................ 119 3.2.2 BOUNDARY LAYERS .................................................. 121 3.2.3 MASS TRANSFER WITH FRICTIONLESS FLOW................................ 123 3.2.4 FLOW AND MASS TRANSFER IN THE CASE OF FLOW WITH FRICTION, LAMINAR FLOW ...................................................... 129 3.2.4.1 EQUATION FOR THE VELOCITY BOUNDARY LAYER IN THE CASE OF FORCED LAMINAR FLOW ...................................................... 129 3.2.4.2 EQUATION FOR THE DIFFUSION BOUNDARY LAYER UNDER CONDITIONS OF FORCED LAMINAR FLOW ...................................................... 132 3.2.4.3 SOLUTION OF THE BOUNDARY LAYER EQUATIONS .......................... 133 3.2.5 APPROXIMATE CALCULATION OF THE BOUNDARY LAYER EQUATIONS WITH THE AID OF THE INTEGRAL PROFILE METHOD ..................................... 140 3.2.5.1 THE BOUNDARY LAYER AT THE LONGITUDINALLY STREAMED PLATE ............ 140 3.2.5.2 FLOW AND CONCENTRATION BOUNDARY LAYERS AT A LIQUID-LIQUID INTERFACE . 142 3.2.6 FLOW AND MASS TRANSFER IN THE CASE OF FLOW WITH FRICTION, TURBULENT FLOW ................................................. 150 3.2.6.1 DEFINITION OF TURBULENCE ...................... 150 3.2.6.2 REYNOLDS SHEAR STRESS ............................................. T51 3.2.6.3 PRANDTLS MIXING LENGTH ........................................... 154 3.2.6.4 TURBULENT MASS TRANSFER ........................................... 155 3.2.7 TURBULENT MOMENTUM AND MASS TRANSFER AT FREE SURFACES ............ 157 3.2.8 INFLUENCE OF INTERFACIALLY ACTIVE SUBSTANCES ON MASS TRANSFER ........ 162 3.2.9 MASS TRANSFER WITH A PRECIPITATION REACTION AT THE INTERFACE ......... 164 4 THE KINETICS OF METALLURGICAL REACTIONS .......................... 167 4.1 INTRODUCTION....................................................... 167 4.2 METAL-GAS REACTIONS ............................................... 168 4.2.1 THE REACTION BETWEEN LIQUID IRON AND NITROGEN ..................... 168 4.2.1.1 DETERMINING THE REACTION SCHEME ............................... 168 4.2.1.2 MASS TRANSPORT IN THE GAS PHASE ................................... 170 4.2.1.3 MASS TRANSPORT IN THE MELT......................................... 173 4.2.1.4 THE PHASE-BOUNDARY REACTION AT PURE IRON-NITROGEN MELTS ........... 175 4.2.1.5 INFLUENCE OF OXYGEN AND SULPHUR ON NITROGEN TRANSFER .............. 177 4.2.2 THE REACTION BETWEEN LIQUID IRON AND HYDROGEN .................... 179 4.2.3 THE CARBON-OXYGEN REACTION IN LIQUID IRON ......................... 180 4.2.3.1 OXIDATION OF CARBON AT A FREE SURFACE OF THE METAL MELT BY A GASEOUS OXIDATION AGENT ........................................... 181 4.2.3.2 OXIDATION OF LIQUID IRON BY OXYGEN ................................ 188 4.2.3.3 THE CARBON MONOXIDE REACTION .................................... 190 4.3 METAL-SLAG REACTIONS ............................................... 194 4.3.1 REACTIONS WITHOUT PARTICIPATION OF CARBON ............ 194 4.3.1.1 TRANSPORT-DETERMINED REACTIONS .................................... 194 X 4.3.1.2 PHASE-BOUNDARY REACTION ............ 196 4.3.2 REACTIONS INVOLVING CARBON........................................ 199 4.4 DISSOLUTION OF SOLIDS .............................................. 209 4.4.1 DISSOLUTION OF DENSE SUBSTANCES ................................... 209 4.4.1.1 DETACHMENT OF ATOMS FROM THE CRYSTAL ............................. 209 4.4.1.2 TRANSPORT-CONTROLLED DISSOLUTION ................................... 212 4.4.2 DISSOLUTION OF POROUS SUBSTANCES .................................. 214 4.4.3 DISSOLUTION OF LIME IN SILICEOUS SLAGS .............................. 219 5 LAWS GOVERNING THE MOVEMENT OF SOLID PARTICLES, DROPLETS AND GAS BUBBLES IN MULTIPHASE SYSTEMS ............................... 221 5.1 INTRODUCTION....................................................... 221 5.2 MOVEMENT OF SOLID PARTICLES ....................................... 221 5.3 MOVEMENT OF GAS BUBBLES ......................................... 225 5.3.1 BUBBLE FORMATION ................................................. 225 5.3.2 DRAG LAWS RELATING TO GAS BUBBLES ................................. 232 5.3.3 BUBBLE DISINTEGRATION ............................................. 238 5.4 MOVEMENT OF DROPLETS ............................................. 239 5.5 MOVEMENT LAWS RELATING TO PARTICLE SUSPENSIONS AND BUBBLE SWARMS 240 5.5.1 MOVEMENT OF PARTICLE CLOUDS OF LIMITED HEIGHT ..................... 241 5.5.2 BUBBLE PLUMES .................................................... 246 5.5.2.1 GENERAL ........................................................... 246 5.5.2.2 BUBBLE PLUMES IN THE CONVERTER ................................... 251 5.5.2.3 BUBBLE PLUMES IN THE LADLE ........................................ 253 5.6 BEHAVIOUR OF PARTICLE-GAS JETS ..................................... 266 5.6.1 CONSTITUTIONAL DIAGRAM OF PNEUMATIC CONVEYING .................... 267 5.6.2 HYDRODYNAMIC BEHAVIOUR OF PARTICLE-GAS JETS ....................... 267 5.6.2.1 TYPES OF PARTICLE-GAS JETS .......................................... 267 5.6.2.2 BEHAVIOUR OF COUPLED PARTICLE-GAS JETS UPON PENETRATION INTO MELTS . 270 5.6.3 PENETRATION OF PARTICLES INTO MELTS ................................. 277 5.6.3.1 INTRODUCTION....................................................... 277 5.6.3.2 PENETRATION OF A SINGLE PARTICLE .................................... 279 5.6.3.3 SUBSEQUENT BEHAVIOUR OF THE PARTICLES IN THE MELT, PENETRATION OF A PARTICLE CLOUD ..................................................... 282 5.7 EMULSIFICATION .................................................... 284 5.7.1 CONDITION FOR DROPLET FORMATION ....................*.............. 285 5.7.2 VELOCITY AT THE SLAG-METAL INTERFACE ...... 287 5.7.3 THE QUANTITY OF EMULSIFIED DROPLETS ................................ 294 6 MASS TRANSFER IN METALLURGICAL SYSTEMS .......................... 297 6.1 INTRODUCTION....................................................... 297 6.2 WEAR OF REFRACTORY MATERIAL ........................................ 298 6.3 BUBBLE-AGITATED INTERFACE .......................................... 302 6.3.1 MODEL CONCEPTS ................................................... 302 6.3.2 EXPERIMENTAL RESULTS .............................................. 304 6.4 FUNDAMENTALS OF MASS TRANSFER AT PARTICLES, DROPLETS AND BUBBLES ... 309 XI 309 316 320 325 328 335 339 343 343 345 345 346 347 349 350 351 356 358 359 359 362 362 365 366 376 378 378 384 384 395 395 398 398 399 401 405 408 412 412 6.5 GROWTH AND DISSOLUTION OF SMALL PARTICLES IN MELTS ................. 6.6 INTERACTION BETWEEN PARTICLES AND INTERFACES; PARTICLE COAGULATION AND PARTICLE SEPARATION ............................................. 6.7 PARTICLE SEPARATION BY STIRRING ..................................... 6.8 MASS TRANSFER AT SOLID PARTICLES IN THE CASE OF HIGHER REYNOLDS NUMBERS .......................................................... 6.9 MASS TRANSFER AT PARTICLES, TAKING INTO ACCOUNT DIFFUSION IN THE PARTICLE ........................................................... 6.10 MASS TRANSFER BETWEEN MELTS AND DROPLETS ........................... 6.11 MASS TRANSFER BETWEEN GAS BUBBLES AND MELTS ...................... 1 REACTOR THEORY ........................................... ....... 7.1 THE CONCEPT OF REACTOR THEORY ..................................... 7.2 MACROKINETICS IN HOMOGENEOUS SYSTEMS ........................... 7.2.1 PRELIMINARY REMARKS............................................... 7.2.2 MACROKINETICS IN NON-EMULSIFIED SYSTEMS .......................... 7.2.2.1 PERMANENT PHASE CONTACT .......................................... 12 . 2.2 TRANSITORY PHASE CONTACT .......................................... 7.2.3 MACROKINETICS IN EMULSIFIED SYSTEMS ............................... 7.2.3.1 PERMANENT PHASE CONTACT .......................................... 1 . 23.2 TRANSITORY PHASE CONTACT .......................................... 7.2.4 CONCLUSIONS....................................................... 7.3 MASS TRANSFER IN DISPERSED SYSTEMS ................................ 7.3.1 RULES FOR DETERMINING MASS TRANSFER AT PARTICLES, DROPLETS AND BUBBLES ........................................................... 7.3.2 METAL-SLAG REACTIONS IN THE OXYGEN CONVERTER....................... 7.3.2.1 THE OXYGEN CONVERTER REACTION SYSTEM ............................. 13 . 2.2 PARTICLE SIZE DISTRIBUTION, QUANTITY AND RESIDENCE TIME OF IRON DROPLETS EMULSIFIED IN THE SLAG ............................................. 13.23 THE DEPHOSPHORISATION REACTION .................................... 7.3.2.4 INFLUENCE OF CHANGING PARAMETERS .................................. 7.3.3 DESULPHURISATION OF HOT METAL BY THE INJECTION OF LIME OR CALCIUM CARBIDE ........................................................... 7.3.3.1 ANALYSIS OF THE DESULPHURISATION REACTION INVOLVING LIME ........... 7.3.3.2 DESULPHURISATION WITH CALCIUM CARBIDE ............................. 7.4 THE DECARBURISATION REACTION....................................... 7.5 MIXING ........................................................... 7.5.1 INTRODUCTION....................................................... 7.5.2 MIXING MODELS .................................................... 7.5.2.1 MODEL FOR TURBULENT CIRCULATORY FLOW ............................... 7.5.2.2 SIMPLE CIRCULATION MODEL .......................................... 7.5.2.3 TANK-IN-SERIES MODEL .............................................. 7.5.2.4 TWO-TANK MODEL .................................................. 7.5.2.5 COMBINED CIRCULATION AND TWO-TANK MODEL ......................... 7.5.2.6 GENERALISED ZONAL MODEL .......................................... 7.5.3 MIXING IN THE CONVERTER ........................................... XII 8 THE KINETICS OF MELTING .......................................... 417 8.1 MELTING DOWN WITH DIRECT HEAT TRANSFER FROM THE ENERGY SOURCE TO THE SOLID MATERIAL ............................................... 417 8.1.1 INTRODUCTION....................................................... 417 8.1.2 PREHEATING PERIOD ................ 421 8.1.3 FUSION PERIOD ..................................................... 427 8.2 MELTDOWN OF A SOLID IN ITS OWN MELT............................... 432 8.2.1 INTRODUCTION....................................................... 432 8.2.2 DESCRIPTION OF THE MELTING PROCESS WITHOUT TAKING INTO ACCOUNT HEAT CONDUCTION IN THE SOLID ............................... 436 8.2.2.1 ISOTHERMAL MELTING OF A SOLID AT MELTING TEMPERATURE IMMERSED IN A SLIGHTLY SUPERHEATED BATH ........................... 437 8.2.2.2 ADIABATIC MELTING OF A SOLID AT MELTING TEMPERATURE IMMERSED IN A SLIGHTLY SUPERHEATED BATH ..................................... 437 8.2.2.3 ISOTHERMAL MELTING OF A SOLID ALREADY AT MELTING TEMPERATURE IMMERSED IN A HIGHLY SUPERHEATED BATH ............:............... 440 8.2.2.4 ISOTHERMAL AND ADIABATIC MELTING OF A COLD CHARGE MATERIAL HAVING A HEAT CONDUCTIVITY OF A = 0...................................... 442 8.2.2.5 ISOTHERMAL MELTING OF A COLD CHARGE MATERIAL HAVING A HEAT CONDUCTIVITY OF A = OO ............................................. 442 8.2.3 DESCRIPTION OF THE MELTING PROCESS TAKING INTO ACCOUNT HEAT CONDUCTION IN THE SOLID ............................................ 444 8.2.4 EXPERIMENTAL RESULTS .............................................. 449 8.3 MELTING OF PURE IRON IN LIQUID IRON-CARBON ALLOYS ................... 451 8.4 PROCESS MODEL OF MELTING ......................................... 454 REFERENCES.................................................................... 457 INDEX......................................................................... 491 XIII
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spelling	Oeters, Franz 1928- Verfasser (DE-588)104774436 aut Metallurgie der Stahlherstellung Metallurgy of steelmaking Franz Oeters Düsseldorf Stahleisen 1994 XIX, 512 S. Ill., zahlr. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Ligas metálicas larpcal Steel Metallurgy Metallurgie (DE-588)4074756-6 gnd rswk-swf Stahlherstellung (DE-588)4116592-5 gnd rswk-swf Metallurgie (DE-588)4074756-6 s Stahlherstellung (DE-588)4116592-5 s DE-604 HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=006645549&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Oeters, Franz 1928- Metallurgy of steelmaking Ligas metálicas larpcal Steel Metallurgy Metallurgie (DE-588)4074756-6 gnd Stahlherstellung (DE-588)4116592-5 gnd
subject_GND	(DE-588)4074756-6 (DE-588)4116592-5
title	Metallurgy of steelmaking
title_alt	Metallurgie der Stahlherstellung
title_auth	Metallurgy of steelmaking
title_exact_search	Metallurgy of steelmaking
title_full	Metallurgy of steelmaking Franz Oeters
title_fullStr	Metallurgy of steelmaking Franz Oeters
title_full_unstemmed	Metallurgy of steelmaking Franz Oeters
title_short	Metallurgy of steelmaking
title_sort	metallurgy of steelmaking
topic	Ligas metálicas larpcal Steel Metallurgy Metallurgie (DE-588)4074756-6 gnd Stahlherstellung (DE-588)4116592-5 gnd
topic_facet	Ligas metálicas Steel Metallurgy Metallurgie Stahlherstellung
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